UNIT 1:
Introduction to Circuits and Ohm’s Law , DC circuits: Resistive elements
Resistors in series and parallel circuits
Kirchoffs laws, Ideal, Practical voltage and current sources
Kirchoffs laws, Ideal, Practical voltage and current sources
Kirchoffs laws, Ideal, Practical voltage and current sources
Mesh current method of analysis for D.C
Node voltage method of analysis for D.C
UNIT 2:
Network reduction: voltage and current division rule
Thevenin’s Theorem, Norton’s Theorem
Thevenin’s Theorem, Norton’s Theorem
Maximum power transfer Theorem, Reciprocity Theorem
UNIT 3:
Single phase circuits: Waveforms, Peak value, Average value, Effective value
Capacitive and Inductive elements
Impedance, Power and Power factor
Impedance, Power and Power factor
Three phase circuits:phase and line values– phasor diagrams
analysis of three phase 3-wire and 4-wire circuits, balanced loads
analysis of three phase 3-wire and 4-wire circuits, un-balanced loads
UNIT 4:
Series resonance – frequency response
Quality factor and Bandwidth
Parallel Resonance (RL & RC circuit only)
Parallel Resonance (RL & RC circuit only)
Self and mutual inductance – Coefficient of coupling
UNIT 5:
Transient response of RL circuits
Transient response of RL circuits
Transient response of RC and RLC series circuits using Laplace transform for DC input
Transient response of RC and RLC series circuits using Laplace transform for DC input
Transient response of RLC series circuit for AC input.